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Apical constriction
Drosophila Ric-8 Interacts with the Gα12/13 Subunit, Concertina, During Activation of the Folded Gastrulation Pathway
The Physical Mechanisms of Drosophila Gastrulation: Mesoderm and Endoderm Invagination
Apical Sarcomere-Like Actomyosin Contracts Nonmuscle Drosophila Epithelial Cells
Volume Conservation Principle Involved in Cell Lengthening and Nucleus Movement During Tissue Morphogenesis
GEF-H1 Functions in Apical Constriction and Cell Intercalations
Cell Non-Autonomy Amplifies Disruption of Neurulation by Mosaic
Pax6-Dependent Shroom3 Expression Regulates Apical Constriction During Lens Placode Invagination Timothy F
Gastrulation: Partaking of the Bottle Dispatch
Endocytosis Is Required for Efficient Apical Constriction During Xenopus
Sonic Hedgehog Signaling Directs Patterned Cell Remodeling During
Rho Signaling Pathway and Apical Constriction in the Early Lens Placode
Wnt Ligand/Frizzled 2 Receptor Signaling Regulates Tube Shape and Branch-Point Formation in the Lung Through Control of Epithelial Cell Shape
Cadherin Preserves Cohesion Across Involuting Tissues During C. Elegans
Apical Constriction Is Driven by a Pulsatile Apical Myosin Network In
Transcript: Neurulation Dr. Michael Barresi Smith College Biological
Coordination of Cytoskeletal Dynamics and Cell Behaviour During <Italic
MRCK-1 Drives Apical Constriction in C.&Nbsp;Elegans by Linking
18 Wheeler Regulates Apical Constriction of Salivary Gland Cells Via the Rho-Gtpase-Signaling Pathway ⁎ Tereza Kolesnikov, Steven K
Top View
Loss of Gα12/13 Exacerbates Apical Area Dependence of Actomyosin Contractility
Gastrulation in C. Elegans* Jeremy Nance1,§, Jen-Yi Lee2,§†, Bob Goldstein2,§ 1
Integrins Regulate Apical Constriction Via Microtubule Stabilization in the Drosophila Eye Disc Epithelium
Apical Constriction: a Cell Shape Change That Can Drive Morphogenesis
The Rhogef Protein Plekhg5 Regulates Apical Constriction of Bottle Cells During Gastrulation Ivan K
Constricting Membranes at the Nano and Micro Scale
Hallmarks of Primary Neurulation Are Conserved in the Zebrafish Forebrain
Microtubule-Induced Cortical Cell Polarity
Investigating the Molecular Mechanism of Shroom-Rock Interaction and Its Role in Cellular and Tissue Morphogenesis
1 Investigating the Role of Shroom3 in Collagen Regulation And
Apical Constriction Is Necessary for Crypt Formation in Small Intestinal Organoids
Forces in Tissue Morphogenesis and Patterning
Apical Constriction and Invagination: a Very Self-Reliant Couple
1 1 Hingepoints and Neural Folds Reveal Conserved 2 Features Of
Gastrulation in C. Elegans
Paxillin-Dependent Regulation of Apical-Basal Polarity in Mammary Gland Morphogenesis Weiyi Xu1, Anushree C
Functional Changes Associated with SHROOM3 Deficiency and Mutation: Implications in Renal Pathophysiology and Disease
Role of Rab11 in Planar Cell Polarity and Apical Constriction During Vertebrate Neural Tube Closure
Shroom Family Proteins Regulate -Tubulin Distribution and Microtubule
A Brief Review of GPCR Signaling with a Focus on the Drosophila GPCR Family Caitlin D
Hindbrain Neuropore Tissue Geometry Determines Asymmetric Cell-Mediated Closure Dynamics in Mouse Embryos
Dynamin 2 Orchestrates the Global Actomyosin Cytoskeleton for Epithelial Maintenance and Apical Constriction
Optogenetic Control of Apical Constriction Induces Synthetic Morphogenesis in Mammalian Tissues